Abstract
We have examined the effect of a naphthylquinoline triplex-binding ligand on the formation of intermolecular triplexes on DNA fragments containing the target sites A6G6xC6T6 and G6A6xT6C6. The ligand enhances the binding of T6C2, but not T2C6, to A6G6xC6T6 suggesting that it has a greater effect on TxAT than C+xGC triplets. The complex with T6C2 is only stable below pH 6.0, confirming the requirement for protonation of the third strand cytosines. Antiparallel triplexes with GT-containing oligonucleotides are also stabilised by the ligand. The complex between G5T5 and A6G6xC6T6 is stabilised by lower ligand concentrations than that between T5G5 and G6A6xC6T6. The ligand does not promote the interaction with GT-containing oligonucleotides which have been designed to bind in a parallel orientation. Although the formation of antiparallel triplexes is pH independent, we find that the ligand has a greater stabilising effect at lower pH, suggesting that the active species is protonated. The ligand does not promote the binding of antiparallel GA-containing oligonucleotides at pH 7.5 but induces the interaction between A5G5 and G6A6xT6C6 at pH 5.5. Ethidium bromide does not promote the formation of any of these triplexes and destabilises the interaction of acridine-linked pyrimidine-containing third strands with these target sites.